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The district heating supply module is a dispatch model which tries to find a cost optimum solution for covering the heat demand at every hour of the year.
> The method described here is to be understood as a first concept and can deviate from the actual implementation (model complexity, inputs and outputs, etc. must be seen from this point of view).
The module is implemented as a linear program and can be used on the one hand as a pure dispatch model and on the other hand for investment planning to cover a load profile. The objective function tries to find the minimum of the difference from the costs for providing the heat and revenues from electricity production.
ctotal
yield from the sum of:IC
(installed capacities multiplied by the annuities of the specific investment costs)
CC
:OPEX
:revtotal
yield from:: NOT IMPLEMENTED>
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This page is written by Jeton Hasani*.
* Energy Economics Group - TU Wien Institute of Energy Systems and Electrical Drives Gusshausstrasse 27-29/370 1040 Wien
Copyright © 2016-2018: Jeton Hasani Creative Commons Attribution 4.0 International License This work is licensed under a Creative Commons CC BY 4.0 International License. SPDX-License-Identifier: CC-BY-4.0 License-Text: https://spdx.org/licenses/CC-BY-4.0.html
We would like to convey our deepest appreciation to the Horizon 2020 Hotmaps Project (Grant Agreement number 723677), which provided the funding to carry out the present investigation.
View in another language:
Bulgarian* Croatian* Czech* Danish* Dutch* Estonian* Finnish* French* German* Greek* Hungarian* Irish* Italian* Latvian* Lithuanian* Maltese* Polish* Portuguese (Portugal, Brazil)* Romanian* Slovak* Slovenian* Spanish* Swedish*
* machine translated1>CM District heating supply dispatch
The district heating supply module is a dispatch model which tries to find a cost optimum solution for covering the heat demand at every hour of the year.
> The method described here is to be understood as a first concept and can deviate from the actual implementation (model complexity, inputs and outputs, etc. must be seen from this point of view).
The module is implemented as a linear program and can be used on the one hand as a pure dispatch model and on the other hand for investment planning to cover a load profile. The objective function tries to find the minimum of the difference from the costs for providing the heat and revenues from electricity production.
ctotal
yield from the sum of:IC
(installed capacities multiplied by the annuities of the specific investment costs)
CC
:OPEX
:revtotal
yield from:: NOT IMPLEMENTED>
To Top
This page is written by Jeton Hasani*.
* Energy Economics Group - TU Wien Institute of Energy Systems and Electrical Drives Gusshausstrasse 27-29/370 1040 Wien
Copyright © 2016-2018: Jeton Hasani Creative Commons Attribution 4.0 International License This work is licensed under a Creative Commons CC BY 4.0 International License. SPDX-License-Identifier: CC-BY-4.0 License-Text: https://spdx.org/licenses/CC-BY-4.0.html
We would like to convey our deepest appreciation to the Horizon 2020 Hotmaps Project (Grant Agreement number 723677), which provided the funding to carry out the present investigation.
View in another language:
Bulgarian* Croatian* Czech* Danish* Dutch* Estonian* Finnish* French* German* Greek* Hungarian* Irish* Italian* Latvian* Lithuanian* Maltese* Polish* Portuguese (Portugal, Brazil)* Romanian* Slovak* Slovenian* Spanish* Swedish*
* machine translated>CM District heating supply dispatch
The district heating supply module is a dispatch model which tries to find a cost optimum solution for covering the heat demand at every hour of the year.
> The method described here is to be understood as a first concept and can deviate from the actual implementation (model complexity, inputs and outputs, etc. must be seen from this point of view).
The module is implemented as a linear program and can be used on the one hand as a pure dispatch model and on the other hand for investment planning to cover a load profile. The objective function tries to find the minimum of the difference from the costs for providing the heat and revenues from electricity production.
ctotal
yield from the sum of:IC
(installed capacities multiplied by the annuities of the specific investment costs)
CC
:OPEX
:revtotal
yield from:: NOT IMPLEMENTED>
To Top
This page is written by Jeton Hasani*.
* Energy Economics Group - TU Wien Institute of Energy Systems and Electrical Drives Gusshausstrasse 27-29/370 1040 Wien
Copyright © 2016-2018: Jeton Hasani Creative Commons Attribution 4.0 International License This work is licensed under a Creative Commons CC BY 4.0 International License. SPDX-License-Identifier: CC-BY-4.0 License-Text: https://spdx.org/licenses/CC-BY-4.0.html
We would like to convey our deepest appreciation to the Horizon 2020 Hotmaps Project (Grant Agreement number 723677), which provided the funding to carry out the present investigation.
View in another language:
Bulgarian* Croatian* Czech* Danish* Dutch* Estonian* Finnish* French* German* Greek* Hungarian* Irish* Italian* Latvian* Lithuanian* Maltese* Polish* Portuguese (Portugal, Brazil)* Romanian* Slovak* Slovenian* Spanish* Swedish*
* machine translated
Last edited by web, 2020-09-30 11:29:36